CN205751863U - A kind of hierarchical antidetonation power capacitor apparatus - Google Patents
A kind of hierarchical antidetonation power capacitor apparatus Download PDFInfo
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- CN205751863U CN205751863U CN201620709362.2U CN201620709362U CN205751863U CN 205751863 U CN205751863 U CN 205751863U CN 201620709362 U CN201620709362 U CN 201620709362U CN 205751863 U CN205751863 U CN 205751863U
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Abstract
This utility model relates to a kind of hierarchical antidetonation power capacitor apparatus, and including fence, multiple Capacitor stack and multiple current transformer, fence is around multiple Capacitor stack and multiple current transformer;Each Capacitor stack all includes multiple upright capacitor framework and the first power capacitor bank, multiple upright capacitor frame vertical straight directions arranged stacked, is all connected by column insulator between adjacent two upright capacitor frameworks;The lower end of Capacitor stack is provided with multiple base insulator, and the lower end of base insulator is fixedly connected with the ground by footing steel plate;The first power capacitor bank in multiple Capacitor stack is in parallel by pipe bus;The first power capacitor bank composition Double-bridge difference protection wiring in each two current transformer and a Capacitor stack.It is little that this utility model realizes power capacitor hierarchical compact Layout, floor space, and production technology is simple, install and maintenance workload is little, can effectively reduce cost, improves cost performance, meets 9 degree of Seismic Design Requirements.
Description
Technical field
This utility model relates to electric capacitor technical field, particularly to a kind of hierarchical antidetonation power capacitor apparatus.
Background technology
Along with the fast development of ultra-high voltage AC transmission technology, in order to provide reactive power compensation, strengthen stablizing of system
Property, reduce via net loss and improve quality of voltage, needing to use substantial amounts of high-voltage parallel capacitor device.Multiple stage capacitor passes through
After connection in series-parallel connects, being directly connected on ac bus, these capacitor devices are required for using graded insulation, namely every two-layer electricity
Must separate with insulator between container and between capacitor and ground.And the rating operating voltage of capacitor device, rated capacity
Requiring the highest with creep distance, the number of plies of capacitor device is a lot, and the height of pylon is the highest.Ultra-high voltage AC transmission engineering 110kV
The height of brace type capacitor pylon just surpasses 7m;Single tower weight reaches 16 tons.And capacitor pylon antidetonation is affected
Two big parameters are height and the weight of pylon, and therefore the anti-seismic problem ratio of capacitor pylon is more prominent, need to do deeply to grind
Study carefully.
China is positioned at the place that several plates such as Pacific Rim plate, eurasian plate, Indian Ocean plate connect, at least
495 Earthquake Fault Zones, Seismicity frequency is high, intensity is big, focus is shallow, and distribution is wide, is the country that an earthquake calamity is serious.Extra-high
The design of pressure AC and DC power transmission engineering capacitor device pylon must take into anti-seismic problem, and according to GB GB50260, " electric power sets
Execute earthquake resistant design code " regulation: seismic fortification intensity improve 1 degree set up defences.Earthquake intensity when geographical position residing for transformer station
When being 8 degree, the design of ultra-high voltage AC transmission engineering capacitor device pylon needs to set up defences by 9 degree.
In order to solve ultra-high voltage AC transmission 9 degree of high anti-seismic problems of engineering capacitor device pylon, use suspension structure
Can be effectively improved the shock resistance of capacitor pylon, but face that cost is the highest, floor space big, production and processing difficulty is big, peace
Dress is complicated, maintenance and the shortcoming such as difficult in maintenance.Use lattice apparatus structure can solve disadvantages mentioned above, but be often double tower mutually
Arranging, floor space is the most relatively large, and single group capacitor plant area area reaches 247m2。
Along with land policy is tightened up by country, soil also rises constantly as non-renewable resources, price.Extra-high
Pressure ac transmission engineering construction develops to compact and integrated direction, on the premise of meeting 9 degree of high anti-seismic requirements, has
The necessary ultra-high voltage AC transmission engineering capacitor device developing single column compact, is greatly lowered floor space.
Utility model content
Technical problem to be solved in the utility model is to provide a kind of hierarchical antidetonation power capacitor apparatus, it is achieved electricity
Power capacitor hierarchical compact Layout, floor space are little, and production technology is simple, install and maintenance workload is little, can effectively reduce
Cost, improves cost performance, meets 9 degree of Seismic Design Requirements.
The technical scheme that this utility model solves above-mentioned technical problem is as follows: a kind of hierarchical antidetonation power capacitor dress
Putting, including fence, multiple Capacitor stack and multiple current transformer, described fence is mutual around multiple Capacitor stack and multiple electric current
Sensor;
Each described Capacitor stack all includes in multiple upright capacitor framework and each upright capacitor framework the
One power capacitor bank, multiple described upright capacitor frame vertical straight directions arranged stacked, adjacent two described upright capacitors
All connected by column insulator between framework;The lower end of described Capacitor stack is provided with multiple base insulator, described base
The lower end of insulator is fixedly connected with the ground by footing steel plate;
The first power capacitor bank in multiple Capacitor stack is in parallel by pipe bus;Current transformer described in each two with
The first power capacitor bank composition Double-bridge difference protection wiring in one described Capacitor stack.
The beneficial effects of the utility model are: multiple upright capacitor frame vertical straight stackings, it is achieved be built into hierarchical frame
Frame so that hierarchical framework is more firm, and floor space is little, low cost, cost performance is high, can reduce power engineering construction
This, compared with every double tower layout of employing mutually, the hierarchical high anti-seismic power capacitor apparatus using single column to arrange mutually can drop
Low cover an area of 33%;Furthermore hierarchical framework is verified by 9 degree of antidetonations, meet the area use of 9 degree of Seismic Design Requirements.
On the basis of technique scheme, this utility model can also do and improve as follows:
Further, each described Capacitor stack also includes multiple inclination capacitor framework and each inclination capacitor framework
The second interior power capacitor bank, the first assembly of multiple inclination capacitor frameworks composition is placed in multiple described upright capacitor
The lower end of the second assembly of framework composition, multiple described inclination capacitor frame vertical straight stackings, and each described inclination electricity
The bottom of container frame is suitable with the upper flat tilting capacitor framework of its lower end diagonally downward along its both sides to be connected, each two institute
State and connected by batter post insulator between inclination capacitor framework.
Above-mentioned further scheme is used to provide the benefit that: multiple upright capacitor frame vertical straight stackings are placed in multiple inclination
The upper end of capacitor framework, it is achieved be built into hierarchical framework, and multiple inclination capacitor framework is tilted towards along its both sides successively
Lower smooth-going connects, and the root increased between Capacitor stack lower base insulator is opened, and Capacitor stack makes hierarchical framework more
Firm, floor space is little, low cost, and cost performance is high, can reduce power engineering construction cost, uses double tower to arrange phase mutually with every
Ratio, uses the hierarchical high anti-seismic power capacitor apparatus of single column layout to reduce mutually and covers an area of 33%;Furthermore layer
Level formula framework is verified by 9 degree of antidetonations, meets the area use of 9 degree of Seismic Design Requirements.
Further, described Capacitor stack is provided with three, and described current transformer is provided with six;Electric current described in each two
The first power capacitor bank in transformer and a described Capacitor stack and the composition Double-bridge difference protection of the second power capacitor bank
Wiring, and two described current transformers are height interlaced arrangement.
Above-mentioned further scheme is used to provide the benefit that: to be height interlaced arrangement by two current transformers, and
With Capacitor stack composition Double-bridge difference protection wiring, improve capacitor device internal fault unbalance protection reliability, drop further
Low floor space.
Further, described Capacitor stack is provided with three, and described current transformer is provided with three;Each described electric current
The first single Bridge differential current protection wiring of power capacitor bank composition in transformer and a described Capacitor stack.
Above-mentioned further scheme is used to provide the benefit that: full in capacitor device internal fault unbalance protection reliability
In the case of foot requires, by reducing current transformer quantity, reduce floor space and power engineering construction cost further.
Further, described Capacitor stack includes four upright capacitor frameworks and two inclination capacitor frameworks, and four straight
Vertical capacitor frame vertical straight stacking is placed in the upper end of two described inclination capacitor frameworks, and two described inclination capacitor frameworks erect
Straight stacking.
Use above-mentioned further scheme to provide the benefit that: to realize being built into hierarchical framework, upright capacitor framework and
Tilt capacitor framework and only undertake the weight of self, improve shock resistance, reduce floor space, low cost, cost performance simultaneously
Height, can reduce power engineering construction cost.
Further, described upright capacitor framework includes two the first underframe and multiple steel strut, the first underframe described in
Being placed in the top of another described first underframe, two described first underframe constitute same potential level, two described first underframe
Between connect by multiple described steel struts are fixing, the upper end of two described first underframe is all placed with the first electric capacitor
Device, the edge of two described first underframe is provided with four connecting holes, and described steel strut is provided with four, four described steel struts
Fixing with four connecting holes of described first underframe be respectively connected.
Above-mentioned further scheme is used to provide the benefit that: realizing the first stacked placement of power capacitor bank, reduction accounts for
Ground area, low cost, cost performance is high, can reduce power engineering construction cost;Improve the bonding strength of two the first underframe,
Improve shock resistance.
Further, described inclination capacitor framework includes the second underframe, the 3rd underframe and multiple oblique steel strut, described second
Underframe is placed in the top of described 3rd underframe or described second underframe is placed in the lower section of described 3rd underframe, described second underframe
Constitute same potential level with the 3rd underframe, fixed by multiple described oblique steel struts between described second underframe and the 3rd underframe
Connecting, the upper end of described second underframe and the 3rd underframe is all placed with the second power capacitor bank, and described oblique steel strut is provided with
Four, the edge steel strut oblique with each described of described 3rd underframe is all connected by bent plate is fixing.
Above-mentioned further scheme is used to provide the benefit that: to connect the second underframe and the 3rd end by multiple oblique steel struts
Frame, can promote the intensity of capacitor framework, improve the shock resistance of this device;Bent plate adapts to capacitor framework edge
The topology requirement that both sides tilt, increases the shock resistance of capacitor framework.
Further, described first underframe is fixedly installed and described first power capacitor bank is carried out the first spacing limit
Position frame, described second underframe and the 3rd underframe is provided with that described second power capacitor bank is carried out spacing second is spacing
Frame.
Above-mentioned further scheme is used to provide the benefit that: the first position-limited rack and the second position-limited rack are respectively to the first electric power electricity
Container group and the second power capacitor bank fix so that the first power capacitor bank and the second power capacitor bank are more
Add firm, promote shock resistance.
Further, described first power capacitor bank for being arranged horizontally or lie on one's side installation, described second power capacitor bank
For being arranged horizontally or lie on one's side installation.
Further, multiple described first power capacitor banks and multiple second vertical stratose of power capacitor bank, Duo Gesuo
State each capacitor in the first power capacitor bank and multiple second power capacitor bank all with its lower end correspondence position institute
State the capacitor series connection in the first power capacitor bank or the second power capacitor bank, at multiple described first power capacitor banks
And from top to bottom build multiple vertical series arm, and multiple described vertical series arm between multiple second power capacitor bank
In parallel.
Above-mentioned further scheme is used to provide the benefit that: capacitor series connection realizes the connection of hierarchical framework, by 9 degree
Antidetonation is verified, meets the area use of 9 degree of Seismic Design Requirements.
Accompanying drawing explanation
Fig. 1 is the structural representation of this utility model a kind of hierarchical antidetonation power capacitor apparatus;
Fig. 2 is the front view of this utility model a kind of hierarchical antidetonation power capacitor apparatus;
Fig. 3 is the top view of Fig. 2;
Fig. 4 is the structural representation of upright capacitor framework;
Fig. 5 is the structural representation tilting capacitor framework;
Fig. 6 is the front view of steel strut;
Fig. 7 is the front view of oblique steel strut;
Fig. 8 is the front view of the first underframe;
Fig. 9 is the top view of Fig. 8;
Figure 10 is the front view of the second underframe;
Figure 11 is the top view of Figure 10;
Figure 12 is the front view of the 3rd underframe;
Figure 13 is the top view of Figure 12;
Figure 14 is the front view of bent plate;
Figure 15 is the top view of Figure 14.
In accompanying drawing, the list of parts representated by each label is as follows:
1, Capacitor stack, 2, current transformer, 3, upright capacitor framework, 4, tilt capacitor framework, 5, column insulation
Son, 6, batter post insulator, 7, base insulator, 8, footing steel plate, 9, fence, the 10, first underframe, 11, steel strut, 12, first
Power capacitor bank, 13, connecting hole, the 14, second underframe, the 15, the 3rd underframe, 16, oblique steel strut, the 17, second power capacitor
Group, 18, bent plate, the 19, first position-limited rack, the 20, second position-limited rack, 21, pipe bus, 22, tin-coated copper twisted wire.
Detailed description of the invention
Being described principle of the present utility model and feature below in conjunction with accompanying drawing, example is served only for explaining this practicality
Novel, it is not intended to limit scope of the present utility model.
As shown in Figure 1 to Figure 3, a kind of hierarchical antidetonation power capacitor apparatus, including fence 9, multiple Capacitor stack 1 and
Multiple current transformers 2, described fence 9 is around multiple Capacitor stack 1 and multiple current transformer 2;
In each described Capacitor stack 1 all includes multiple upright capacitor frameworks 3 and each upright capacitor framework 3
First power capacitor bank 12, multiple described upright capacitor framework 3 vertical direction arranged stacked, adjacent two described upright electricity
All connected by column insulator 5 between container frame 3;The lower end of described Capacitor stack 1 is provided with multiple base insulator 7,
The lower end of described base insulator 7 is fixedly connected with the ground by footing steel plate 8;
The first power capacitor bank 12 in multiple Capacitor stack 1 is in parallel by pipe bus 21;Described in each two, electric current is mutual
The first power capacitor bank 12 in sensor 2 and a described Capacitor stack 1 forms Double-bridge difference protection wiring;
Preferably, each described Capacitor stack 1 also includes multiple inclination capacitor framework 4 and each inclination capacitor frame
The second power capacitor bank 17 in frame 4, multiple inclination capacitor frameworks 4 composition the first assembly be placed in multiple described uprightly
The lower end of the second assembly of capacitor framework 3 composition, multiple described vertical stackings of inclination capacitor framework 4, and each institute
The bottom stating capacitor framework 4 is suitable even with the upper flat of the inclination capacitor framework 4 of its lower end diagonally downward along its both sides
Connect, tilt described in each two and connected by batter post insulator 6 between capacitor framework 4;
Multiple upright capacitor framework 3 vertical level are stacked and placed on the upper end of multiple inclination capacitor framework 4, it is achieved build stratification
Level formula framework, and multiple inclination capacitor framework 4 smoothes out connection diagonally downward along its both sides successively, increases Capacitor stack 1 time
Root between portion's base insulator 7 is opened so that hierarchical framework is more firm, and floor space is little, low cost, and cost performance is high, can
To reduce power engineering construction cost, compared with every double tower layout of employing mutually, use the hierarchical high anti-seismic that single column is arranged mutually
Power capacitor apparatus can reduce and covers an area of 33%;Hierarchical framework is verified by 9 degree of antidetonations, meets 9 degree of antidetonations and sets
The area use that meter requires.
Preferably, described Capacitor stack 1 is provided with three, and described current transformer 2 is provided with six;Electricity described in each two
The first power capacitor bank 12 and the second power capacitor bank 17 in current transformer 2 and a described Capacitor stack 1 form double
Bridge differential current protection wiring, and two described current transformers 2 are in height interlaced arrangement;Handed in height by two current transformers 2
Wrong layout, and form Double-bridge difference protection wiring with Capacitor stack 1, improve capacitor device internal fault unbalance protection reliable
Property, reduce floor space further.
Preferably, described Capacitor stack 1 is provided with three, and described current transformer 2 is provided with three;Each described electricity
The first power capacitor bank 12 in current transformer 2 and a described Capacitor stack 1 forms single Bridge differential current protection wiring;At capacitor
In the case of device internal fault unbalance protection reliability meets requirement, by reducing current transformer quantity, drop further
Low floor space and power engineering construction cost.
Preferably, shown in Fig. 4 and Fig. 5, described Capacitor stack 1 includes four upright capacitor frameworks 3 and two inclination electricity
Container frame 4, four upright capacitor framework 3 vertical level are stacked and placed on the upper end of two described inclination capacitor frameworks 4, two institutes
State the inclination vertical stacking of capacitor framework 4;Realization is built into hierarchical framework, upright capacitor framework 3 and inclination capacitor frame
Frame 4 only undertakes the weight of self, improves shock resistance, reduces floor space, low cost simultaneously, and cost performance is high, can reduce
Power engineering construction cost.
Preferably, as shown in Fig. 4 to Figure 15, described upright capacitor framework 3 includes two the first underframe 10 and multiple steel
Pillar 11, the first underframe 10 described in is placed in the top of another described first underframe 10, and two described first underframe 10 constitute phase
With current potential level, connect by multiple described steel struts 11 are fixing between two described first underframe 10, two described first
The upper end of underframe 10 is all placed with the first power capacitor 12, and the edge of two described first underframe 10 is provided with four connecting holes
13, described steel strut 11 is provided with four, four described steel struts 11 respectively with four connecting holes of described first underframe 10
13 fixing connections;Realizing the first power capacitor bank layer 12 stacked to place, reduce floor space, low cost, cost performance is high, permissible
Reducing power engineering construction cost, four connecting holes 13 with described first underframe 10 respectively of four described steel struts 11 are fixed
Connect, improve the bonding strength of two the first underframe 10, improve shock resistance.
Preferably, as shown in Fig. 5, Figure 10 to Figure 13, described inclination capacitor framework 4 included for second underframe the 14, the 3rd end
Frame 15 and multiple oblique steel strut 16, described second underframe 14 is placed in the top of described 3rd underframe 15 or described second underframe 14
Being placed in the lower section of described 3rd underframe 15, described second underframe 14 and the 3rd underframe 15 constitute same potential level, and described second
Connect by multiple described oblique steel struts 16 are fixing between underframe 14 and the 3rd underframe 15, described second underframe 14 and the 3rd underframe
The upper end of 15 is all placed with the second power capacitor bank 17, and described oblique steel strut 16 is provided with four, described 3rd underframe 15
Edge steel strut 16 oblique with each described is all connected by bent plate 18 is fixing;The second underframe is connected by multiple oblique steel struts 16
14 and the 3rd underframe 15, can promote the intensity of capacitor framework 4, improve the shock resistance of this device;Bent plate 18 adapts to
Tilt the topology requirement that capacitor framework 4 tilts along both sides, increase the shock resistance of capacitor framework 4.
Preferably, as shown in Fig. 8 to Figure 13, described first underframe 10 is fixedly installed described first power capacitor
Group 12 carries out the first spacing position-limited rack 19, and described second underframe 14 and the 3rd underframe 15 are provided with described second electric power
Capacitor banks 17 carries out the second spacing position-limited rack 20;First position-limited rack 19 and the second position-limited rack 20 are respectively to the first electric capacitor
Device group 12 and the second power capacitor bank 17 fix so that the first power capacitor bank 12 and the second power capacitor
Group 17 is more firm, promotes shock resistance.
Preferably, described first power capacitor bank 12 for being arranged horizontally or lie on one's side installation, described second power capacitor
Group 17, for being arranged horizontally or lie on one's side installation, is arranged horizontally and puts the most side by side for the multiple power capacitors in power capacitor bank
Putting, the multiple power capacitor vertical level being installed as in power capacitor bank of lying on one's side stack puts.
Preferably, as shown in Figures 2 and 3, multiple described first power capacitor banks 12 and multiple second power capacitor
Group 17 vertical stratoses, each electric capacity in multiple described first power capacitor banks 12 and multiple second power capacitor bank 17
Device is all connected with the first power capacitor bank 12 described in its lower end correspondence position or the capacitor in the second power capacitor bank 17,
From top to bottom build between multiple described first power capacitor banks 12 and multiple second power capacitor bank 17 multiple vertically
Series arm, and multiple described vertical series arm is in parallel.
Preferably, between adjacent two the first power capacitor banks 12, described first power capacitor bank 12 and the second electricity
Between power Capacitor banks 17, and between adjacent two described second power capacitor banks 17 all by tin-coated copper twisted wire 22 even
Connect.
The foregoing is only preferred embodiment of the present utility model, not in order to limit this utility model, all in this practicality
Within novel spirit and principle, any modification, equivalent substitution and improvement etc. made, should be included in guarantor of the present utility model
Within the scope of protecting.
Claims (10)
1. a hierarchical antidetonation power capacitor apparatus, it is characterised in that: include fence (9), multiple Capacitor stack (1) and many
Individual current transformer (2), described fence (9) is around multiple Capacitor stack (1) and multiple current transformer (2);
In each described Capacitor stack (1) all includes multiple upright capacitor framework (3) and each upright capacitor framework (3)
The first power capacitor bank (12), multiple described upright capacitor framework (3) vertical direction arranged stacked, described in adjacent two
All connected by column insulator (5) between upright capacitor framework (3);The lower end of described Capacitor stack (1) is provided with multiple
Base insulator (7), the lower end of described base insulator (7) is fixedly connected with the ground by footing steel plate (8);
The first power capacitor bank (12) in multiple Capacitor stack (1) is in parallel by pipe bus (21);Electric current described in each two
Transformer (2) and the first power capacitor bank (12) the composition Double-bridge difference protection wiring in a described Capacitor stack (1).
A kind of hierarchical antidetonation power capacitor apparatus, it is characterised in that: each described capacitor
Tower (1) also includes the second power capacitor bank in multiple inclination capacitor framework (4) and each inclination capacitor framework (4)
(17) the first assembly that, multiple inclinations capacitor framework (4) form is placed in what multiple described upright capacitor framework (3) formed
The lower end of the second assembly, the vertically stacking of multiple described inclinations capacitor framework (4), and each described inclination capacitor framework
(4) bottom is suitable with the upper flat of inclination capacitor framework (4) of its lower end diagonally downward along its both sides to be connected, described in each two
Tilt and connected by batter post insulator (6) between capacitor framework (4).
A kind of hierarchical antidetonation power capacitor apparatus, it is characterised in that: described Capacitor stack
(1) being provided with three, described current transformer (2) is provided with six;Current transformer described in each two (2) and a described electricity
The first power capacitor bank (12) in container tower (1) and the second power capacitor bank (17) composition Double-bridge difference protection wiring, and
Two described current transformers (2) are in height interlaced arrangement.
A kind of hierarchical antidetonation power capacitor apparatus, it is characterised in that: described Capacitor stack
(1) being provided with three, described current transformer (2) is provided with three;Each described current transformer (2) and a described electricity
The single Bridge differential current protection wiring of the first power capacitor bank (12) composition in container tower (1).
A kind of hierarchical antidetonation power capacitor apparatus, it is characterised in that: described Capacitor stack
(1) including four upright capacitor frameworks (3) and two inclinations capacitor framework (4), four upright capacitor frameworks (3) are vertical
Stacking is placed in the upper end of two described inclinations capacitor framework (4), two described inclination capacitor framework (4) vertically stackings.
A kind of hierarchical antidetonation power capacitor apparatus, it is characterised in that: described upright capacitor
Framework (3) includes two the first underframe (10) and multiple steel strut (11), the first underframe (10) described in be placed in another described
The top of one underframe (10), two described first underframe (10) constitute same potential level, two described first underframe (10)
Between connect by multiple described steel struts (11) are fixing, the upper end of two described first underframe (10) is all placed with the first electric power
Capacitor banks (12), the edge of two described first underframe (10) is provided with four connecting holes (13), and described steel strut (11) sets
Being equipped with four, the fixing with four connecting holes (13) of described first underframe (10) respectively of four described steel struts (11) is connected.
A kind of hierarchical antidetonation power capacitor apparatus, it is characterised in that: described inclination capacitor
Framework (4) includes that the second underframe (14), the 3rd underframe (15) and multiple oblique steel strut (16), described second underframe (14) are placed in institute
State the top of the 3rd underframe (15) or described second underframe (14) is placed in the lower section of described 3rd underframe (15), described second end
Frame (14) and the 3rd underframe (15) constitute same potential level, by many between described second underframe (14) and the 3rd underframe (15)
Individual described oblique steel strut (16) is fixing to be connected, and the upper end of described second underframe (14) and the 3rd underframe (15) is all placed with the second electricity
Power Capacitor banks (17), described oblique steel strut (16) is provided with four, the edge of described 3rd underframe (15) with each described in
Tiltedly steel strut (16) all connects by bent plate (18) is fixing.
A kind of hierarchical antidetonation power capacitor apparatus, it is characterised in that: described first underframe
(10) it is fixedly installed on and described first power capacitor bank (12) is carried out spacing the first position-limited rack (19), described second end
It is provided with on frame (14) and the 3rd underframe (15) and described second power capacitor bank (17) is carried out the second spacing position-limited rack
(20)。
A kind of hierarchical antidetonation power capacitor apparatus, it is characterised in that: described first electric power electricity
Container group (12) is for being arranged horizontally or lie on one's side installation, and described second power capacitor bank (17) is for being arranged horizontally or lie on one's side installation.
10. according to hierarchical antidetonation power capacitor apparatus a kind of described in claim 7 or 9, it is characterised in that: multiple described the
One power capacitor bank (12) and multiple second power capacitor bank (17) vertically stratose, multiple described first power capacitor banks
(12) each capacitor and in multiple second power capacitor bank (17) all with the first electric power described in its lower end correspondence position
Capacitor series connection in Capacitor banks (12) or the second power capacitor bank (17), at multiple described first power capacitor banks
(12) and from top to bottom build multiple vertical series arm between multiple second power capacitor bank (17), and multiple described vertically
Series arm is in parallel.
Priority Applications (1)
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CN201620709362.2U CN205751863U (en) | 2016-07-06 | 2016-07-06 | A kind of hierarchical antidetonation power capacitor apparatus |
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CN201620709362.2U CN205751863U (en) | 2016-07-06 | 2016-07-06 | A kind of hierarchical antidetonation power capacitor apparatus |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106024376A (en) * | 2016-07-06 | 2016-10-12 | 桂林电力电容器有限责任公司 | Layered anti-shock electric power capacitor device |
CN111614337A (en) * | 2020-06-02 | 2020-09-01 | 南方电网科学研究院有限责任公司 | Main capacitor tower and AC/DC filter |
-
2016
- 2016-07-06 CN CN201620709362.2U patent/CN205751863U/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106024376A (en) * | 2016-07-06 | 2016-10-12 | 桂林电力电容器有限责任公司 | Layered anti-shock electric power capacitor device |
CN106024376B (en) * | 2016-07-06 | 2018-08-31 | 桂林电力电容器有限责任公司 | A kind of hierarchical antidetonation power capacitor apparatus |
CN111614337A (en) * | 2020-06-02 | 2020-09-01 | 南方电网科学研究院有限责任公司 | Main capacitor tower and AC/DC filter |
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